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Penicillamine
CAPSULES CUPRIMINE® (PENICILLAMINE)
Physicians planning to use penicillamine should thoroughly
familiarize themselves with its toxicity, special dosage considerations,
and therapeutic benefits. Penicillamine should never be used casually.
Each patient should remain constantly under the close supervision of the
physician. Patients should be warned to report promptly any symptoms suggesting
toxicity.
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DESCRIPTION
Penicillamine is a chelating agent used in the treatment of
Wilson's disease. It is also used to reduce cystine excretion in cystinuria
and to treat patients with severe, active rheumatoid arthritis unresponsive
to conventional therapy (see INDICATIONS).
It is 3-mercapto-D-valine. It is a white or practically white, crystalline powder,
freely soluble in water, slightly soluble in alcohol, and insoluble in ether,
acetone, benzene, and carbon tetrachloride. Although its configuration is D1
it is levorotatory as usually measured:
[a] 25° = -62.5° ± 2° (c = 1, 1N
NaOH), calculated on a dried basis.
The empirical formula is C5H11NO2S,
giving it a molecular weight of 149.21.
It reacts readily with formaldehyde or acetone to form a thiazolidine-carboxylic
acid.
Capsules CUPRIMINE* (Penicillamine) for oral administration
contain either 125 mg or 250 mg of penicillamine. Each capsule contains the
following inactive ingredients: D & C Yellow 10, gelatin, lactose, magnesium
stearate, and titanium dioxide. The 125 mg capsule also contains iron oxide.
CLINICAL PHARMACOLOGY
Penicillamine is a chelating agent recommended for the removal
of excess copper in patients with Wilson's disease. From in vitro studies
which indicate that one atom of copper combines with two molecules of penicillamine,
it would appear that one gram of penicillamine should be followed by the excretion
of about 200 milligrams of copper; however, the actual amount excreted is about
one percent of this.
Penicillamine also reduces excess cystine excretion in cystinuria.
This is done, at least in part, by disulfide interchange between penicillamine
and cystine, resulting in formation of penicillamine-cysteine disulfide, a substance
that is much more soluble than cystine and is excreted readily.
Penicillamine interferes with the formation of cross-links
between tropocollagen molecules and cleaves them when newly formed.
The mechanism of action of penicillamine in rheumatoid arthritis
is unknown although it appears to suppress disease activity. Unlike cytotoxic
immunosuppressants, penicillamine markedly lowers IgM rheumatoid factor but
produces no significant depression in absolute levels of serum immunoglobulins.
Also unlike cytotoxic immunosuppressants which act on both, penicillamine in
vitro depresses T-cell activity but not B-cell activity.
In vitro, penicillamine dissociates macroglobulins
(rheumatoid factor) although the relationship of the activity to its effect
in rheumatoid arthritis is not known.
In rheumatoid arthritis, the onset of therapeutic response
to CUPRIMINE may not be seen for two or three months. In those patients who
respond, however, the first evidence of suppression of symptoms such as pain,
tenderness, and swelling is generally apparent within three months. The optimum
duration of therapy has not been determined. If remissions occur, they may last
from months to years, but usually require continued treatment (see DOSAGE
AND ADMINISTRATION).
In all patients receiving penicillamine, it is important that
CUPRIMINE be given on an empty stomach, at least one hour before meals or two
hours after meals, and at least one hour apart from any other drug, food, or
milk. This permits maximum absorption and reduces the likelihood of inactivation
by metal binding in the gastrointestinal tract.
Pharmacokinetics
Penicillamine is absorbed rapidly but incompletely (40-70%)
from the gastrointestinal tract, with wide inter-individual variations. Food,
antacids, and iron reduce absorption of the drug. The peak plasma concentration
of penicillamine occurs 1-3 hours after ingestion; it is approximately 1-2 mg/L
after an oral dose of 250 mg. The drug appears in the plasma as free penicillamine,
penicillamine disulfide, and cysteine-penicillamine disulfide. When prolonged
treatment is stopped, there is a slow elimination phase lasting 4-6 days.
More than 80% of plasma penicillamine is bound to proteins.
The drug also binds to erythrocytes and macrophages. A small fraction of the
dose is metabolized in the liver to s-methyl-D-penicillamine. Drug excretion
is primarily renal, mainly as disulfides.
INDICATIONS
CUPRIMINE is indicated in the treatment of Wilson's disease,
cystinuria, and in patients with severe, active rheumatoid arthritis who have
failed to respond to an adequate trial of conventional therapy. Available evidence
suggests that CUPRIMINE is not of value in ankylosing spondylitis.
Wilsons Disease Wilsons disease (hepatolenticular
degeneration) occurs in individuals who have inherited an autosomal recessive
defect that leads to an accumulation of copper far in excess of metabolic requirements.
The excess copper is deposited in several organs and tissues, and eventually
produces pathological effects primarily in the liver, where damage progresses
to postnecrotic cirrhosis, and in the brain, where degeneration is widespread.
Copper is also deposited as characteristic, asymptomatic, golden-brown Kayser-Fleisher
rings in the corneas of all patients with cerebral symptomatology and some patients
who are either asymptomatic or manifest only hepatic symptomatology.
Two types of patients require treatment for Wilson's disease:
(1) the symptomatic, and (2) the asymptomatic in whom it can be assumed the
disease will develop in the future if the patient is not treated.
The diagnosis, if suspected on the basis of family or individual
history or physical examination, can be confirmed if the plasma copper-protein
ceruloplasmin** is <20 mg/dL and either a quantitative determination
in a liver biopsy specimen shows an abnormally high concentration of copper
(>250 mcg/g dry weight) or Kayser-Fleischer rings are present.
Treatment has two objectives:
(1) to minimize dietary intake of copper;
(2) to promote excretion and complex formation (i.e., detoxification)
of excess tissue copper.
The first objective is attained by a daily diet that contains
no more than one or two milligrams of copper. Such a diet should exclude, most
importantly, chocolate, nuts, shellfish, mushrooms, liver, molasses, broccoli,
and cereals and dietary supplements enriched with copper, and be composed to
as great an extent as possible of foods with a low copper content. Distilled
or demineralized water should be used if the patient's drinking water contains
more than 0.1 mg of copper per liter.
For the second objective, a copper chelating agent is used.
In symptomatic patients this treatment usually produces marked
neurologic improvement, fading of Kayser-Fleischer rings, and gradual amelioration
of hepatic dysfunction and psychic disturbances.
Clinical experience to date suggests that life is prolonged
with the above regimen.
Noticeable improvement may not occur for one to three months.
Occasionally, neurologic symptoms become worse during initiation of therapy
with CUPRIMINE. Despite this, the drug should not be withdrawn. Temporary
interruption carries an increased risk of developing a sensitivity reaction
upon resumption of therapy, although it may result in clinical improvement
of neurological symptoms (see WARNINGS).
If the neurological symptoms and signs continue to worsen for a month
after the initiation of CUPRIMINE therapy, several short courses of treatment
with 2,3 - dimercaprol (BAL) while continuing CUPRIMINE
may be considered.
Treatment of asymptomatic patients has been carried out for
over thirty years. Symptoms and signs of the disease appear to be prevented
indefinitely if daily treatment with CUPRIMINE is continued.
Cystinuria Cystinuria is characterized by excessive
urinary excretion of the dibasic amino acids, arginine, lysine, ornithine, and
cystine, and the mixed disulfide of cysteine and homocysteine. The metabolic
defect that leads to cystinuria is inherited as an autosomal, recessive trait.
Metabolism of the affected amino acids is influenced by at least two abnormal
factors: (1) defective gastrointestinal absorption and (2) renal tubular dysfunction.
Arginine, lysine, ornithine, and cysteine are soluble substances,
readily excreted. There is no apparent pathology connected with their excretion
in excessive quantities.
Cystine, however, is so slightly soluble at the usual range
of urinary pH that it is not excreted readily, and so crystallizes and forms
stones in the urinary tract. Stone formation is the only known pathology in
cystinuria.
Normal daily output of cystine is 40 to 80 mg. In cystinuria,
output is greatly increased and may exceed 1 g/day. At 500 to 600 mg/day, stone
formation is almost certain. When it is more than 300 mg/day, treatment is indicated.
Conventional treatment is directed at keeping urinary cystine
diluted enough to prevent stone formation, keeping the urine alkaline
enough to dissolve as much cystine as possible, and minimizing cystine
production by a diet low in methionine (the major dietary precursor of
cystine). Patients must drink enough fluid to keep urine specific gravity
below 1.010, take enough alkali to keep urinary pH at 7.5 to 8, and maintain
a diet low in methionine. This diet is not recommended in growing children
and probably is contraindicated in pregnancy because of its low protein
content (see PRECAUTIONS).
When these measures are inadequate to control recurrent stone
formation, CUPRIMINE may be used as additional therapy, and when patients refuse
to adhere to conventional treatment, CUPRIMINE may be a useful substitute. It
is capable of keeping cystine excretion to near normal values, thereby hindering
stone formation and the serious consequences of pyelonephritis and impaired
renal function that develop in some patients.
Bartter and colleagues depict the process by which penicillamine
interacts with cystine to form penicillamine-cysteine mixed disulfide as:
CSSC + PS' ======> CS' + CSSP
<======
PSSP + CS' ======> PS' + CSSP
<======
CSSC + PSSP' ======> 2CSSP
<======
CSSC = cystine
CS' = deprotonated cysteine
PSSP = penicillamine disulfide
PS' = deprotonated penicillamine sulfhydryl
CSSP = penicillamine-cysteine mixed disulfide
In this process, it is assumed that the deprotonated form of
penicillamine, PS', is the active factor in bringing about the disulfide interchange.
Rheumatoid Arthritis Because CUPRIMINE can cause severe
adverse reactions, its use in rheumatoid arthritis should be restricted
to patients who have severe, active disease and who have failed to respond
to an adequate trial of conventional therapy. Even then, benefit-to-risk
ratio should be carefully considered. Other measures, such as rest, physiotherapy,
salicylates, and corticosteroids should be used, when indicated, in conjunction
with CUPRIMINE (see PRECAUTIONS).
DOSAGE AND ADMINISTRATION
In all patients receiving penicillamine, it is important that
CUPRIMINE be given on an empty stomach, at least one hour before meals
or two hours after meals, and at least one hour apart from any other drug,
food, or milk. Because penicillamine increases the requirement for pyridoxine,
patients may require a daily supplement of pyridoxine (see PRECAUTIONS).
Wilson's Disease Optimal dosage can be determined
by measurement of urinary copper excretion and the determination of free copper
in the serum. The urine must be collected in copper-free glassware, and should
be quantitatively analyzed for copper before and soon after initiation of therapy
with CUPRIMINE.
Determination of 24-hour urinary copper excretion is of greatest
value in the first week of therapy with penicillamine. In the absence of any
drug reaction, a dose between 0.75 and 1.5 g that results in an initial 24-hour
cupriuresis of over 2 mg should be continued for about three months, by which
time the most reliable method of monitoring maintenance treatment is the determination
of free copper in the serum. This equals the difference between quantitatively
determined total copper and ceruloplasmin-copper. Adequately treated patients
will usually have less than 10 mcg free copper/dL of serum. It is seldom necessary
to exceed a dosage of 2 g/day. If the patient is intolerant to therapy with
CUPRIMINE, alternative treatment is trientine hydrochloride.
In patients who cannot tolerate as much as 1 g/day initially,
initiating dosage with 250 mg/day, and increasing gradually to the requisite
amount, gives closer control of the effects of the drug and may help to reduce
the incidence of adverse reactions.
Cystinuria It is recommended that CUPRIMINE
be used along with conventional therapy. By reducing urinary cystine, it decreases
crystalluria and stone formation. In some instances, it has been reported to
decrease the size of, and even to dissolve, stones already formed.
The usual dosage of CUPRIMINE in the treatment of cystinuria
is 2 g/day for adults, with a range of 1 to 4 g/day. For pediatric patients,
dosage can be based on 30 mg/kg/day. The total daily amount should be divided
into four doses. If four equal doses are not feasible, give the larger portion
at bedtime. If adverse reactions necessitate a reduction in dosage, it is important
to retain the bedtime dose.
Initiating dosage with 250 mg/day, and increasing gradually
to the requisite amount, gives closer control of the effects of the drug and
may help to reduce the incidence of adverse reactions.
In addition to taking CUPRIMINE, patients should drink copiously.
It is especially important to drink about a pint of fluid at bedtime and another
pint once during the night when urine is more concentrated and more acid than
during the day. The greater the fluid intake, the lower the required dosage
of CUPRIMINE.
Dosage must be individualized to an amount that limits cystine
excretion to 100-200 mg/day in those with no history of stones, and below 100
mg/day in those who have had stone formation and/or pain. Thus, in determining
dosage, the inherent tubular defect, the patient's size, age, and rate of growth,
and his diet and water intake all must be taken into consideration.
The standard nitroprusside cyanide test has been reported useful
as a qualitative measure of the effective dose: Add 2 mL of freshly
prepared 5 percent sodium cyanide to 5 mL of a 24-hour aliquot of protein-free
urine and let stand ten minutes. Add 5 drops of freshly prepared 5 percent sodium
nitroprusside and mix. Cystine will turn the mixture magenta. If the result
is negative, it can be assumed that cystine excretion is less than 100 mg/g
creatinine.
Although penicillamine is rarely excreted unchanged, it also
will turn the mixture magenta. If there is any question as to which substance
is causing the reaction, a ferric chloride test can be done to eliminate doubt:
Add 3 percent ferric chloride dropwise to the urine. Penicillamine will turn
the urine an immediate and quickly fading blue. Cystine will not produce any
change in appearance.
Rheumatoid Arthritis The principal rule of
treatment with CUPRIMINE in rheumatoid arthritis is patience. The onset
of therapeutic response is typically delayed. Two or three months may
be required before the first evidence of a clinical response is noted
(see CLINICAL PHARMACOLOGY).
When treatment with CUPRIMINE has been interrupted because
of adverse reactions or other reasons, the drug should be reintroduced cautiously
by starting with a lower dosage and increasing slowly.
Initial Therapy The currently recommended dosage
regimen in rheumatoid arthritis begins with a single daily dose of 125
mg or 250 mg, which is thereafter increased at one to three month intervals,
by 125 mg or 250 mg/day, as patient response and tolerance indicate. If
a satisfactory remission of symptoms is achieved, the dose associated
with the remission should be continued (see Maintenance Therapy).
If there is no improvement and there are no signs of potentially serious
toxicity after two to three months of treatment with doses of 500-750
mg/day, increases of 250 mg/day at two to three month intervals may be
continued until a satisfactory remission occurs (see Maintenance Therapy)
or signs of toxicity develop (see WARNINGS
and PRECAUTIONS). If there
is no discernible improvement after three to four months of treatment
with 1000 to 1500 mg of penicillamine/day, it may be assumed the patient
will not respond and CUPRIMINE should be discontinued.
Maintenance Therapy The maintenance dosage of CUPRIMINE
must be individualized, and may require adjustment during the course of treatment.
Many patients respond satisfactorily to a dosage within the 500-750 mg/day range.
Some need less.
Changes in maintenance dosage levels may not be reflected clinically
or in the erythrocyte sedimentation rate for two to three months after each
dosage adjustment.
Some patients will subsequently require an increase in the
maintenance dosage to achieve maximal disease suppression. In those patients
who do respond, but who evidence incomplete suppression of their disease after
the first six to nine months of treatment, the daily dosage of CUPRIMINE may
be increased by 125 mg or 250 mg/day at three-month intervals. It is unusual
in current practice to employ a dosage in excess of 1 g/day, but up to 1.5 g/day
has sometimes been required.
Management of Exacerbations During the course of treatment
some patients may experience an exacerbation of disease activity following an
initial good response. These may be self-limited and can subside within twelve
weeks. They are usually controlled by the addition of non-steroidal anti-inflammatory
drugs, and only if the patient has demonstrated a true "escape" phenomenon (as
evidenced by failure of the flare to subside within this time period) should
an increase in the maintenance dose ordinarily be considered.
In the rheumatoid patient, migratory polyarthralgia due to
penicillamine is extremely difficult to differentiate from an exacerbation of
the rheumatoid arthritis. Discontinuance or a substantial reduction in dosage
of CUPRIMINE for up to several weeks will usually determine which of these processes
is responsible for the arthralgia.
Duration of Therapy The optimum duration of therapy
with CUPRIMINE in rheumatoid arthritis has not been determined. If the patient
has been in remission for six months or more, a gradual, stepwise dosage reduction
in decrements of 125 mg or 250 mg/day at approximately three month intervals
may be attempted.
Concomitant Drug Therapy CUPRIMINE should not be used
in patients who are receiving gold therapy, antimalarial or cytotoxic
drugs, oxyphenbutazone, or phenylbutazone (see PRECAUTIONS).
Other measures, such as salicylates, other non-steroidal anti-inflammatory
drugs, or systemic corticosteroids, may be continued when penicillamine
is initiated. After improvement commences, analgesic and anti-inflammatory
drugs may be slowly discontinued as symptoms permit. Steroid withdrawal
must be done gradually, and many months of treatment with CUPRIMINE may
be required before steroids can be completely eliminated.
Dosage Frequency Based on clinical experience, dosages
up to 500 mg/day can be given as a single daily dose. Dosages in excess of 500
mg/day should be administered in divided doses.
HOW SUPPLIED
No. 3299 Capsules CUPRIMINE, 250 mg, are ivory-colored capsules
containing a white or nearly white powder, and are coded CUPRIMINE and MSD 602.
They are supplied as follows:
NDC 0006-0602-68 in bottles of 100.
No. 3350 Capsules CUPRIMINE, 125 mg, are opaque ivory and
gray capsules containing a white or nearly white powder, and are coded CUPRIMINE
and MSD 672. They are supplied as follows:
NDC 0006-0672-68 in bottles of 100.
Storage
Keep container tightly closed.
Issued Printed in USA
Updated Feb 13, 2004
SIDE EFFECTS
Penicillamine is a drug with a high incidence of untoward reactions,
some of which are potentially fatal. Therefore, it is mandatory that patients
receiving penicillamine therapy remain under close medical supervision throughout
the period of drug administration (see WARNINGS
and PRECAUTIONS).
Reported incidences (%) for the most commonly occurring adverse
reactions in rheumatoid arthritis patients are noted, based on 17 representative
clinical trials reported in the literature (1270 patients).
Allergic Generalized pruritus, early and late rashes
(5%), pemphigus (see WARNINGS), and drug
eruptions which may be accompanied by fever, arthralgia, or lymphadenopathy
have occurred (see WARNINGS and PRECAUTIONS).
Some patients may show a lupus erythematosus-like syndrome similar to drug-induced
lupus produced by other pharmacological agents (see PRECAUTIONS).
Urticaria and exfoliative dermatitis have occurred.
Thyroiditis has been reported; hypoglycemia in association
with anti-insulin antibodies has been reported. These reactions are extremely
rare.
Some patients may develop a migratory polyarthralgia, often
with objective synovitis (see DOSAGE AND ADMINISTRATION).
Gastrointestinal Anorexia, epigastric pain, nausea,
vomiting, or occasional diarrhea may occur (17%).
Isolated cases of reactivated peptic ulcer have occurred, as
have hepatic dysfunction including hepatic failure, and pancreatitis. Intrahepatic
cholestasis and toxic hepatitis have been reported rarely. There have been a
few reports of increased serum alkaline phosphatase, lactic dehydrogenase, and
positive cephalin flocculation and thymol turbidity tests.
Some patients may report a blunting, diminution, or total loss
of taste perception (12%); or may develop oral ulcerations. Although rare, cheilosis,
glossitis, and gingivostomatitis have been reported (see PRECAUTIONS).
Gastrointestinal side effects are usually reversible following
cessation of therapy.
Hematological Penicillamine can cause bone marrow
depression (see WARNINGS). Leukopenia (2%)
and thrombocytopenia (4%) have occurred. Fatalities have been reported as a
result of thrombocytopenia, agranulocytosis, aplastic anemia, and sideroblastic
anemia.
Thrombotic thrombocytopenic purpura, hemolytic anemia, red
cell aplasia, monocytosis, leukocytosis, eosinophilia, and thrombocytosis have
also been reported.
Renal Patients on penicillamine therapy may develop
proteinuria (6%) and/or hematuria which, in some, may progress to the development
of the nephrotic syndrome as a result of an immune complex membranous glomerulopathy
(see WARNINGS). Renal failure has been reported.
Central Nervous System Tinnitus, optic neuritis and
peripheral sensory and motor neuropathies (including polyradiculoneuropathy,
i.e., Guillain-Barré syndrome) have been reported. Muscular weakness
may or may not occur with the peripheral neuropathies. Visual and psychic disturbances;
mental disorders; and agitation and anxiety have been reported.
Neuromuscular Myasthenia gravis (see WARNINGS);
dystonia.
Other Adverse reactions that have been reported rarely
include thrombophlebitis; hyperpyrexia (see PRECAUTIONS);
falling hair or alopecia; lichen planus; polymyositis; dermatomyositis; mammary
hyperplasia; elastosis perforans serpiginosa; toxic epidermal necrolysis; anetoderma
(cutaneous macular atrophy); and Goodpasture's syndrome, a severe and ultimately
fatal glomerulonephritis associated with intra-alveolar hemorrhage (see WARNINGS).
Vasculitis, including fatal renal vasculitis, has also been reported. Allergic
alveolitis, obliterative bronchiolitis, interstitial pneumonitis and pulmonary
fibrosis have been reported in patients with severe rheumatoid arthritis, some
of whom were receiving penicillamine. Bronchial asthma also has been reported.
Increased skin friability, excessive wrinkling of skin, and
development of small white papules at venipuncture and surgical sites have been
reported (see PRECAUTIONS); yellow nail syndrome.
The chelating action of the drug may cause increased excretion
of other heavy metals such as zinc, mercury and lead.
There have been reports associating penicillamine with leukemia.
However, circumstances involved in these reports are such that a cause and effect
relationship to the drug has not been established.
DRUG INTERACTIONS
No information available.
WARNINGS
The use of penicillamine has been associated with fatalities
due to certain diseases such as aplastic anemia, agranulocytosis, thrombocytopenia,
Goodpasture's syndrome, and myasthenia gravis.
Because of the potential for serious hematological and renal
adverse reactions to occur at any time, routine urinalysis, white and differential
blood cell count, hemoglobin determination, and direct platelet count must be
done twice weekly, together with monitoring of the patient's skin, lymph nodes
and body temperature, during the first month of therapy, every two weeks for
the next five months, and monthly thereafter. Patients should be instructed
to report promptly the development of signs and symptoms of granulocytopenia
and/or thrombocytopenia such as fever, sore throat, chills, bruising or bleeding.
The above laboratory studies should then be promptly repeated.
Leukopenia and thrombocytopenia have been reported to occur
in up to five percent of patients during penicillamine therapy. Leukopenia is
of the granulocytic series and may or may not be associated with an increase
in eosinophils. A confirmed reduction in WBC below 3500/mm3 mandates
discontinuance of penicillamine therapy. Thrombocytopenia may be on an idiosyncratic
basis, with decreased or absent megakaryocytes in the marrow, when it is part
of an aplastic anemia. In other cases the thrombocytopenia is presumably on
an immune basis since the number of megakaryocytes in the marrow has been reported
to be normal or sometimes increased. The development of a platelet count below
100,000/mm3, even in the absence of clinical bleeding, requires at
least temporary cessation of penicillamine therapy. A progressive fall in either
platelet count or WBC in three successive determinations, even though values
are still within the normal range, likewise requires at least temporary cessation.
Proteinuria and/or hematuria may develop during therapy and
may be warning signs of membranous glomerulopathy which can progress to a nephrotic
syndrome. Close observation of these patients is essential. In some patients
the proteinuria disappears with continued therapy; in others, penicillamine
must be discontinued. When a patient develops proteinuria or hematuria the physician
must ascertain whether it is a sign of drug-induced glomerulopathy or is unrelated
to penicillamine.
Rheumatoid arthritis patients who develop moderate degrees
of proteinuria may be continued cautiously on penicillamine therapy, provided
that quantitative 24-hour urinary protein determinations are obtained at intervals
of one to two weeks. Penicillamine dosage should not be increased under these
circumstances. Proteinuria which exceeds 1 g/24 hours, or proteinuria which
is progressively increasing, requires either discontinuance of the drug or a
reduction in the dosage. In some patients, proteinuria has been reported to
clear following reduction in dosage.
In rheumatoid arthritis patients penicillamine should be discontinued
if unexplained gross hematuria or persistent microscopic hematuria develops.
In patients with Wilson's disease or cystinuria the risks of
continued penicillamine therapy in patients manifesting potentially serious
urinary abnormalities must be weighed against the expected therapeutic benefits.
When penicillamine is used in cystinuria, an annual x-ray for
renal stones is advised. Cystine stones form rapidly, sometimes in six months.
Up to one year or more may be required for any urinary abnormalities
to disappear after penicillamine has been discontinued.
Because of rare reports of intrahepatic cholestasis and toxic
hepatitis, liver function tests are recommended every six months for the duration
of therapy. In Wilsons disease, these are recommended every three months, at
least during the first year of treatment.
Goodpasture's syndrome has occurred rarely. The development
of abnormal urinary findings associated with hemoptysis and pulmonary infiltrates
on x-ray requires immediate cessation of penicillamine.
Obliterative bronchiolitis has been reported rarely. The patient
should be cautioned to report immediately pulmonary symptoms such as exertional
dyspnea, unexplained cough or wheezing. Pulmonary function studies should be
considered at that time.
Onset of new neurological symptoms has been reported with CUPRIMINE
(see ADVERSE REACTIONS).
Occasionally, neurological symptoms become worse during initiation of therapy
with CUPRIMINE (see INDICATIONS). Myasthenic
syndrome sometimes progressing to myasthenia gravis has been reported. Ptosis
and diplopia, with weakness of the extraocular muscles, are often early signs
of myasthenia. In the majority of cases, symptoms of myasthenia have receded
after withdrawal of penicillamine.
Most of the various forms of pemphigus have occurred during
treatment with penicillamine. Pemphigus vulgaris and pemphigus foliaceus are
reported most frequently, usually as a late complication of therapy. The seborrhea-like
characteristics of pemphigus foliaceus may obscure an early diagnosis. When
pemphigus is suspected, CUPRIMINE should be discontinued. Treatment has consisted
of high doses of corticosteroids alone or, in some cases, concomitantly with
an immunosuppressant. Treatment may be required for only a few weeks or months,
but may need to be continued for more than a year.
Once instituted for Wilson's disease or cystinuria, treatment
with penicillamine should, as a rule, be continued on a daily basis. Interruptions
for even a few days have been followed by sensitivity reactions after reinstitution
of therapy.
Pregnancy
Penicillamine has been shown to be teratogenic in rats when
given in doses 6 times higher than the highest dose recommended for human use.
Skeletal defects, cleft palates and fetal toxicity (resorptions) have been reported.
There are no controlled studies on the use of penicillamine
in pregnant women. Although normal outcomes have been reported, characteristic
congenital cutis laxa and associated birth defects have been reported in infants
born of mothers who received therapy with penicillamine during pregnancy. Penicillamine
should be used in women of childbearing potential only when the expected benefits
outweigh the possible hazards. Women on therapy with penicillamine who are of
childbearing potential should be apprised of this risk, advised to report promptly
any missed menstrual periods or other indications of possible pregnancy, and
followed closely for early recognition of pregnancy.
Wilson's Disease Reported experience***
shows that continued treatment with penicillamine throughout pregnancy protects
the mother against relapse of the Wilson's disease, and that discontinuation
of penicillamine has deleterious effects on the mother, which may be fatal.
If penicillamine is administered during pregnancy to patients
with Wilson's disease, it is recommended that the daily dosage be limited to
750 mg. If cesarean section is planned the daily dose should be reduced
to 250 mg, but not lower, for the last six weeks of pregnancy and postoperatively
until wound healing is complete.
Cystinuria If possible, penicillamine should not be
given during pregnancy to women with cystinuria (see CONTRAINDICATIONS).
There are reports of women with cystinuria on therapy with penicillamine who
gave birth to infants with generalized connective tissue defects who died following
abdominal surgery. If stones continue to form in these patients, the benefits
of therapy to the mother must be evaluated against the risk to the fetus.
Rheumatoid Arthritis Penicillamine should not be administered
to rheumatoid arthritis patients who are pregnant (see CONTRAINDICATIONS)
and should be discontinued promptly in patients in whom pregnancy is suspected
or diagnosed.
There is a report that a woman with rheumatoid arthritis treated
with less than one gram a day of penicillamine during pregnancy gave birth (cesarean
delivery) to an infant with growth retardation, flattened face with broad nasal
bridge, low set ears, short neck with loose skin folds, and unusually lax body
skin.
PRECAUTIONS
Some patients may experience drug fever, a marked febrile response
to penicillamine, usually in the second to third week following initiation of
therapy. Drug fever may sometimes be accompanied by a macular cutaneous eruption.
In the case of drug fever in patients with Wilson's disease
or cystinuria, penicillamine should be temporarily discontinued until the reaction
subsides. Then penicillamine should be reinstituted with a small dose that is
gradually increased until the desired dosage is attained. Systemic steroid therapy
may be necessary, and is usually helpful, in such patients in whom drug fever
and rash develop several times.
In the case of drug fever in rheumatoid arthritis patients,
because other treatments are available, penicillamine should be discontinued
and another therapeutic alternative tried since experience indicates that the
febrile reaction will recur in a very high percentage of patients upon readministration
of penicillamine.
The skin and mucous membranes should be observed for allergic
reactions. Early and late rashes have occurred. Early rash occurs during the
first few months of treatment and is more common. It is usually a generalized
pruritic, erythematous, maculopapular or morbilliform rash and resembles the
allergic rash seen with other drugs. Early rash usually disappears within days
after stopping penicillamine and seldom recurs when the drug is restarted at
a lower dosage. Pruritus and early rash may often be controlled by the concomitant
administration of antihistamines. Less commonly, a late rash may be seen, usually
after six months or more of treatment, and requires discontinuation of penicillamine.
It is usually on the trunk, is accompanied by intense pruritus, and is usually
unresponsive to topical corticosteroid therapy. Late rash may take weeks to
disappear after penicillamine is stopped and usually recurs if the drug is restarted.
The appearance of a drug eruption accompanied by fever, arthralgia,
lymphadenopathy or other allergic manifestations usually requires discontinuation
of penicillamine.
Certain patients will develop a positive antinuclear antibody
(ANA) test and some of these may show a lupus erythematosus-like syndrome similar
to drug-induced lupus associated with other drugs. The lupus erythematosus-like
syndrome is not associated with hypocomplementemia and may be present without
nephropathy. The development of a positive ANA test does not mandate discontinuance
of the drug; however, the physician should be alerted to the possibility that
a lupus erythematosus-like syndrome may develop in the future.
Some patients may develop oral ulcerations which in some cases
have the appearance of aphthous stomatitis. The stomatitis usually recurs on
rechallenge but often clears on a lower dosage. Although rare, cheilosis, glossitis
and gingivostomatitis have also been reported. These oral lesions are frequently
dose-related and may preclude further increase in penicillamine dosage or require
discontinuation of the drug.
Hypogeusia (a blunting or diminution in taste perception) has
occurred in some patients. This may last two to three months or more and may
develop into a total loss of taste; however, it is usually self-limited despite
continued penicillamine treatment. Such taste impairment is rare in patients
with Wilson's disease.
Penicillamine should not be used in patients who are receiving
concurrently gold therapy, antimalarial or cytotoxic drugs, oxyphenbutazone
or phenylbutazone because these drugs are also associated with similar serious
hematologic and renal adverse reactions.
Patients who have had gold salt therapy discontinued due to
a major toxic reaction may be at greater risk of serious adverse reactions with
penicillamine but not necessarily of the same type.
Patients who are allergic to penicillin may theoretically have
cross-sensitivity to penicillamine. The possibility of reactions from contamination
of penicillamine by trace amounts of penicillin has been eliminated now that
penicillamine is being produced synthetically rather than as a degradation product
of penicillin. Patients with Wilsons disease or cystinuria should be given
25 mg/day of pyridoxine during therapy, since penicillamine increases the requirement
for this vitamin. Patients also may receive benefit from a multivitamin preparation,
although there is no evidence that deficiency of any vitamin other than pyridoxine
is associated with penicillamine. In Wilson's disease, multivitamin preparations
must be copper-free.
Rheumatoid arthritis patients whose nutrition is impaired should
also be given a daily supplement of pyridoxine. Mineral supplements should not
be given, since they may block the response to penicillamine.
Iron deficiency may develop, especially in pediatric patients
and in menstruating women. In Wilson's disease, this may be a result of adding
the effects of the low copper diet, which is probably also low in iron, and
the penicillamine to the effects of blood loss or growth. In cystinuria, a low
methionine diet may contribute to iron deficiency, since it is necessarily low
in protein. If necessary, iron may be given in short courses, but a period of
two hours should elapse between administration of penicillamine and iron, since
orally administered iron has been shown to reduce the effects of penicillamine.
Penicillamine causes an increase in the amount of soluble collagen.
In the rat this results in inhibition of normal healing and also a decrease
in tensile strength of intact skin. In man this may be the cause of increased
skin friability at sites especially subject to pressure or trauma, such as shoulders,
elbows, knees, toes, and buttocks. Extravasations of blood may occur and may
appear as purpuric areas, with external bleeding if the skin is broken, or as
vesicles containing dark blood. Neither type is progressive. There is no apparent
association with bleeding elsewhere in the body and no associated coagulation
defect has been found. Therapy with penicillamine may be continued in the presence
of these lesions. They may not recur if dosage is reduced. Other reported effects
probably due to the action of penicillamine on collagen are excessive wrinkling
of the skin and development of small, white papules at venipuncture and surgical
sites.
The effects of penicillamine on collagen and elastin make it
advisable to consider a reduction in dosage to 250 mg/day, when surgery is contemplated.
Reinstitution of full therapy should be delayed until wound healing is complete.
Carcinogenesis
Long-term animal carcinogenicity studies have not been done
with penicillamine. There is a report that five of ten autoimmune disease-prone
NZB hybrid mice developed lymphocytic leukemia after 6 months' intraperitoneal
treatment with a dose of 400 mg/kg penicillamine 5 days per week.
Nursing Mothers
See CONTRAINDICATIONS.
Pediatric Use
The efficacy of CUPRIMINE in juvenile rheumatoid arthritis
has not been established.
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